Space Farming: The Final Frontier – Modern Farmer

Space Farming: The Final Frontier – Modern Farmer

NASA looks to grow fresh veggies, 230 miles above the Earth

By Jesse Hirsch on September 10, 2013

Photographs by Stephen Allen

Last year, an astronaut named Don Pettit began an unusual writing project on NASA’s website. Called “Diary of a Space Zucchini,” the blog took the perspective of an actual zucchini plant on the International Space Station (ISS). Entries were insightful and strange, poignant and poetic.

“I sprouted, thrust into this world without anyone consulting me,” wrote Pettit in the now-defunct blog. “I am utilitarian, hearty vegetative matter that can thrive under harsh conditions. I am zucchini — and I am in space.”

An unorthodox use of our tax dollars, but before you snicker, consider this: That little plant could be the key to our future. If — as some doomsday scientists predict — we eventually exhaust the Earth’s livability, space farming will prove vital to the survival of our species. Around the world, governments and private companies are doing research on how we are going to grow food on space stations, in spaceships, even on Mars. The Mars Society is testing a greenhouse in a remote corner of Utah, researchers at the University of Gelph in Ontario are looking at long-term crops like soybeans and barley and Purdue University scientists are marshaling vertical garden design for space conditions. Perhaps most importantly, though, later this year NASA will be producing its own food in orbit for the first time ever.

And if space farming still seems like a pipe dream, the zucchini also served a more tangible purpose. It kept Pettit and his crewmates sane.

You Can Eat It, Too

Growing food in space helps solve one of the biggest issues in space travel: the price of eating. It costs roughly $10,000 a pound to send food to the ISS, according to Howard Levine, project scientist for NASA’s International Space Station and Spacecraft Processing Directorate. There’s a premium on densely caloric foods with long shelf lives. Supply shuttles carry such limited fresh produce that Gioia Massa, a postdoctoral fellow at NASA, says astronauts devour it almost immediately.

Levine and Massa are part of the team developing the Vegetable Production System (VEGGIE) program, set to hit the ISS later this year. This December, NASA plans to launch a set of Kevlar pillow-packs, filled with a material akin to kitty litter, functioning as planters for six romaine lettuce plants. The burgundy-hued lettuce (NASA favors the “Outredgeous” strain) will be grown under bright-pink LED lights, ready to harvest after just 28 days.

NASA has a long history of testing plant growth in space, but the goals have been largely academic. Experiments have included figuring out the effects of zero-gravity on plant growth, testing quick-grow sprouts on shuttle missions and assessing the viability of different kinds of artificial light. But VEGGIE is NASA’s first attempt to grow produce that could actually sustain space travelers.

NASA’s space lettuce will<br /> be rigorously evaluated.1
NASA’s Nicole Dufour (left) and Gioia Massa perform prelaunch testing<br /> on lettuce sprouts, under LED grow lights.2
Microbiologist Mary Hummerick performs lettuce testing.3
A set of<br /> test sprouts growing in pillow-packs.4
Inside the main Vegetable Production System program testing lab at Kennedy Space Center.5

  • 1NASA’s space lettuce will
    be rigorously evaluated.
  • 2NASA’s Nicole Dufour (left) and Gioia Massa perform prelaunch testing
    on lettuce sprouts, under LED grow lights.
  • 3Microbiologist Mary Hummerick performs lettuce testing.
  • 4A set of
    test sprouts growing in pillow-packs.
  • 5Inside the main Vegetable Production System program testing lab at Kennedy Space Center.

Naturally, the dream is to create a regenerative growth system, so food could be continually grown on the space station — or, potentially, on moon colonies or Mars. The Outredgeous lettuce is slated as a first-phase vegetable, quick to grow and loaded with antioxidants (a potential antidote for cosmic radiation). Later veggies may include radishes, snap peas and a special strain of tomato, designed to take up minimal space.

Plant size is a vital calculation in determining what to grow on the space station, where every square foot is carefully allotted. Harvest time is also of extreme importance; the program wants to maximize growth cycles within each crew’s (on average) six-month stay.

4 Other Mars Food Missions

  1. 1The Mars Desert Research Station The MDRS is a program of the Mars Society, a mixed group of scientists and space enthusiasts. In the remote territory near Hanksville, Utah, researchers have attempted to simulate conditions on Mars, including a greenhouse to grow their own food. The science of growing is still rudimentary at MDRS; the goal is to gauge effects on participants’ overall well-being.
  2. 2University of Guelph Unlike VEGGIE, this Canadian program is looking seriously into long-term crops like soybeans and barley.
  3. 3Purdue University Dr. Cary Mitchell of Purdue believes that farming in space is all about the vertical, similar to urban farming advocates here on Earth. Mitchell, a major proponent of LEDs, has been working for years on vertical farming initiatives that can be repurposed for space living.
  4. 4South Pole Using indoor greenhouses, Dr. Gene Giacomelli has spearheaded research on Antarctica, intended to replicate conditions in space. Sponsored by the National Science Foundation, this testing evaluates psychological benefits to South Pole residents, with the thinking that space conditions are similarly isolating.

Leafy greens are ideal, ready to be consumed as soon as they’re plucked from the soil. Potatoes or sweet potatoes, not very good raw, fall into what Massa calls “midterm level” — plants NASA may test further down the line. The most outlandish crops would be wheat and rice, taking longer to grow and requiring bulky milling equipment. Clearly, plants that need processing make less attractive candidates for space travel.

Levine says NASA has tested strains of quick-growing dwarf wheat on past space missions. But growing this kind of crop on a large scale, with the intention of providing long-term sustenance, is still a ways off. “At this point, the break-even cost is far too high for serious bioregenerative agriculture,” Levine says. “Six heads of lettuce make a nice supplement to the crew’s diet, but isn’t going to feed them for the long-term.”

A Garden for Major Tom

But the plants aren’t just for eating — they act as a form of emotional sustenance called horticultural therapy. It’s based on the simple idea that plant care is a balm for the human psyche. According to the Horticultural Society of New York, which has practiced this therapy with Rikers Island inmates since 1989, the list of gains is long: “stress reduction, mood improvement, alleviation of depression, social growth, physical and mental rehabilitation” and general wellness.

Naturally, these benefits are highly prized in space, where even the sturdiest astronauts may be pushed to their limits. “It can be pretty harsh out there, confined to a small metal box,” says Levine. “Caring for a plant every day provides vital psychological relief, giving astronauts a small remembrance of Earth.”

During this six-month stay Pettit brought the space zucchini up with “two new crewmates” — broccoli and sunflower plants — as a personal project. He didn’t have fancy equipment, and only a little soil.

He gave the plants sun by shuttling them between space station windows, and grew them in a plastic bag, feeding them a liquid made from composted food scraps. The crew never tried eating the plants; Pettit jokes it would have felt like cannibalism.

“We considered them crew members,” he says. “It was delightful to have those plants around, to feel the little hairs on a leaf tickle your nose, to see that sunflower in full bloom. It changed our whole experience.”

Massa thinks VEGGIE could promise similar psychic gains to space station astronauts. For one thing, there’s the splash of color provided by the sanguine plants, chromatic relief in a sea of whites and beiges. The program’s second phase will include flowering zinnias, for even more visual vibrancy.

Not to mention, caring for plants can conjure up unknowable associative memories. A childhood harvest, perhaps, or a forgotten summer stroll through the garden. “These are the intangibles,” says Massa. “Will the astronaut nurture each plant like a pet? Will he stumble on a forgotten memory?”

Waiting Is the Hardest Part

The first batch of space-ready lettuce is something of a tease for the NASA crew — once harvested, it will be frozen and stored away for testing back on Earth. No one is allowed to eat anything before the plants are thoroughly vetted for cosmic microbes.

Where’s the Beef in Space?

  • In 1982, the Kids’ Whole Future Catalog made some surprisingly accurate speculation on the future of space farming. In addition to growing plants hydroponically and composting waste, the book suggested astronauts may soon raise space rabbits as a meat source. Far-fetched? Maybe not. Researchers all over the world have spent years studying the most viable proteins for space missions. In choosing the right animal, the biggest concerns are size and waste creation; naturally, scientists in Japan and Mexico have studied edible space insects. Also in Japan, experiments on closed-loop life support systems have recently been performed on small goats. Neither bugs nor goats have yet been launched into space, but Russian crews have performed extensive experiments on one potential food source: the Japanese quail. Crews have sent quail eggs up for study since 1979, with the first ones actually hatching in 1990. Since then, Russian cosmonauts have nurtured baby quails from birth, hand-feeding them and studying their adaptive abilities. The downside? “The cosmonauts grew attached and had trouble killing them,” according to Dr. Gioia Massa of NASA.

These space germs are often fairly benign, akin to the natural bacteria that build up in any moist root bank. Russian crews are allowed to consume vegetables grown on their side of the space station, but microbe standards are strict and unwavering on U.S. space missions. Massa says NASA’s surgeons set these levels based simply on quantity, without regard for “good” or “bad” germs. After the first lettuce harvest is tested, she hopes for reevaluation of the microbial standards, with specific dispensations for agriculture.

But once that hurdle is cleared, Massa has high hopes for the program. Her team has been testing the system in NASA labs since 2011, working out the bugs and evaluating the technology. The growth chambers themselves, created by the Wisconsin company Orbital Technologies Corporation (ORBITEC), are lightweight and easily stored, with relatively simple watering and lighting systems. Each unit requires little space, but could easily be replicated on a large scale. And unlike its clunky, power-draining predecessors, the whole setup requires about as much energy as a desktop computer. “It’s really an ingenious little system,” she says.

As space travel becomes increasing a public-private partnership, NASA is not alone in testing out food programs. “We can’t afford to keep shipping water, oxygen and Kraft dinner to the moon indefinitely,” says Mike Dixon, one of the foremost researchers on grow-your-own-space-food. Dixon is a professor at the University of Guelph in Ontario, and his program is looking at the viability of longer-term crops, like soybeans. Other efforts are focusing on vertical farming design; some researchers are replicating Mars-like conditions on Earth, like the South Pole.

For Massa, this is the realization of a decades-old dream. As a teenager in Florida, she was both a member of her local Future Farmers of America chapter and — like many kids of the ’80s — a space superfan. Her career path was shaped early by a teacher of hers who attended a NASA educational program called “Energize the Green Machine,” speculating on the future of space farming.

Now, after devoting a life to getting here, Massa is on the brink of space farming’s launch.

She mulls over the implications. “Do I think this could hold the keys to our future?” she asks, then pauses. “Yes, I suppose I do.”

Diary of a Space Zucchini

Don Pettit’s Space Zucchini had two friends in space, Broccoli and Sunflower. They loved to pal around. As you can tell, the astronaut’s relationship to his budding garden was quite intimate. From the blog:

March 26: I have new leaves! I am no longer naked to the cosmos. They are not as big as before however they are just as green. Broccoli and Sunflower have leaves as well and are vibrant. We all have happy roots. This is a hard (sic) to explain to a non-plant, but I am feeling very zucchini now.

June 6
: Last night we observed a little black spot on the Sun…Gardener and his crewmates observed the little black spot move across the Sun through a special filter. Sunflower, Broccoli, and I can look directly at the sun with no filter. We all were smiling.

June 9
: Great news; I have a baby brother sprout! Gardener just showed me baby Zuc. He is strong and healthy and ready to move from the sprouter into his own aeroponic bag. While Broccoli and Sunflower are great companions, there is nothing quite like having a zucchini to zucchini conversation.

June 17: 
Excitement is in the air. Gardener said we will soon be returning to Earth. Our part of the mission is nearly complete and the new crew will take over for us. I am a bit worried about Broccoli, Sunflower, and me. If Gardener leaves, who will take care of us? And what about little Zuc? He is now a big sprout and ready to branch out on his

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